# Bitmap Bounding Rectangle Algorithm C++

I currently have my bitmap pixel data stored in an array of chars. I was wondering what would be the most effective algorithm to crop my image based on my image's bounding box.

I've included a relatively accurate example of what I'd like to achieve below. Based on a base "pixel colour".

Bounding Box Example

-
can you tell something about the content of the array? how do you get the index of where a pixel belongs to, i.e. pixel[i][j] –  Mare Infinitus Jun 14 '12 at 18:40
I've read out the pixel data pixel by pixel into a multi dimensional pointer to a pointer of chars. –  Aequitas Jun 14 '12 at 18:42

Well, for something so simple with a known input format (i.e., only a circle in the image with high contrast between it and the background) you could brute force it pretty easily. Simply loop through the image data and look for these contrast differences. Save the top-most, left-most, right-most, and bottom-most positions and you're done.

If the image is not in such a simple format then you will need something more advanced, like a blob detection algorithm.

EDIT: Just for reference, I wrote this brute force algorithm to do something very similar some time ago. It is far from perfect and not highly optimized, though it is simple and the method should be clear. I'll just post the entire thing here (don't judge me too harshly; I wrote this years ago when I was teaching myself C#). This algorithm uses an intensity threshold to find the circle (as opposed to contrast, my input was very well defined).

``````/// <summary>
/// Locates the spot of light on the image and returns an AnalysisResults object.
/// </summary>
unsafe private Rectangle AnalyzeImage( )
{
// function assumes 24bpp RGB format
Bitmap image = m_originalImage;
if ( image.PixelFormat != PixelFormat.Format24bppRgb )
{
throw new ArgumentException( "Image format must be 24bpp RGB" );
}

// using the GDI+ GetPixel method is too slow for a
// 1280x1024 image, so get directly at the image buffer instead.
GraphicsUnit unit = GraphicsUnit.Pixel;
imageRect = Rectangle.Truncate( image.GetBounds( ref unit ) );

BitmapData data = image.LockBits( imageRect, ImageLockMode.ReadWrite, image.PixelFormat );

int intensityThreshold = IntensityThreshold;
// initialize 'top' to -1 so that we can check if it has been set before setting it.
// once a valid value for 'top' is found we don't need to set it again.
int top = -1;

// search for the left point starting at a high value so that we can simply
// pull it towards the left as we find pixels inside of the spot.
int left = imageRect.Right;
int bottom = 0;
int right = 0;

// locate the circle in the image by finding pixels with average
// intesity values above the threshold and then performing
// some edge checks to set the top, left, right, and bottom values.
int height = imageRect.Height + imageRect.Y;
int width = imageRect.Width + imageRect.X;
byte* pSrc = ( byte* ) data.Scan0;

int rowOffset = 1;
for ( int y = imageRect.Y ; y < height ; ++y, ++rowOffset )
{
for ( int x = imageRect.X ; x < width ; ++x )
{
// windows stores images in memory in reverse byte order ( BGR )
byte b = *pSrc++;
byte g = *pSrc++;
byte r = *pSrc++;

// get the average intensity and see if it is above the threshold
int intensity = GetIntensity( r, g, b );
if ( intensity > intensityThreshold )
{
if ( !StrayPixel( pSrc, data, intensityThreshold ) )
{
// found a point in the circle
if ( top == -1 ) top = y;
if ( x < left ) left = x;
if ( y > bottom ) bottom = y;
if ( x > right ) right = x;
}
}
}

// next row
pSrc = ( ( byte* ) data.Scan0 ) + ( rowOffset * data.Stride );
}

image.UnlockBits( data );

// bounding rectangle of our spot
return Rectangle.FromLTRB( left, top, right, bottom );
}

/// <summary>
/// Returns true if the pixel at (x,y) is surrounded in four
/// directions by pixels that are below the specified intesity threshold.
/// This method only checks the first pixel above, below, left, and right
/// of the location currently pointed to by 'pSrc'.
/// </summary>
private unsafe bool StrayPixel( byte* pSrc, BitmapData data, int intensityThreshold )
{
// this method uses raw pointers instead of GetPixel because
// the original image is locked and this is the only way to get at the data.

// if we have a pixel with a relatively high saturation
// value we can safely assume that it is a camera artifact.
if ( Color.FromArgb( pSrc[ 2 ], pSrc[ 1 ], *pSrc ).GetSaturation( ) > MAX_PIXEL_SAT )
{
return true;
}

byte* pAbove = pSrc - data.Stride;
int above = GetIntensity( pAbove[ 2 ], pAbove[ 1 ], *pAbove );

byte* pRight = pSrc + 3;
int right = GetIntensity( pRight[ 2 ], pRight[ 1 ], *pRight );

byte* pBelow = pSrc + data.Stride;
int below = GetIntensity( pBelow[ 2 ], pBelow[ 1 ], *pBelow );

byte* pLeft = pSrc - 3;
int left = GetIntensity( pLeft[ 2 ], pLeft[ 1 ], *pLeft );

// if all of the surrounding pixels are below the threshold we have found a stray
return above < intensityThreshold &&
right < intensityThreshold &&
below < intensityThreshold &&
left  < intensityThreshold;
}

/// <summary>
/// Returns the average of ( r, g, b )
/// </summary>
private int GetIntensity( byte r, byte g, byte b )
{
return GetIntensity( Color.FromArgb( r, g, b ) );
}

/// <summary>
/// Returns the average of ( c.r, c.g, c.b )
/// </summary>
private int GetIntensity( Color c )
{
return ( c.R + c.G + c.B ) / 3;
}
``````
-
I'm currently doing as described, however I'm doing it in two separate nested for loops. One for the width, and the other for the height. Is there a method of saving off said positions in one single nested loop? I'd like to optimise the algorithm as much as is possible. –  Aequitas Jun 14 '12 at 18:46
Just use four variables declared outside of the loops. –  Ed S. Jun 14 '12 at 18:47
@Aequitas: Also, from your description it sounds like you are looping through the image column-wise, i.e., `for(w = 0; w < width; ++w) { for(y = 0; y < height; ++y) {} }`, which means that you will likely be flushing the cache on every read. You should loop through row-wise so that each successive read is looking at the next sequential chunk of memory. Your outermost loop should be the height index, the innermost the width index. –  Ed S. Jun 14 '12 at 18:56
I'm looping row wise Ed, but thanks for the tip. My only remaining question would it be best to test contrast differences? At the moment I'm saving my top left pixel. I don't believe this is the most reliable method though. What if a pixel was added somewhere within the border? –  Aequitas Jun 14 '12 at 18:56
No, always compare adjacent pixels to judge contrast. Again though, this comes down to your requirements, i.e., what sort of images do you need to handle? Form your example you could simply check that the pixel is not blue. Is that the only case you need to account for? If your input is unknown then you need a more advanced algorithm. –  Ed S. Jun 14 '12 at 18:57

Brute force is fine, but you can do better using accelerated `StretchBlt` to calculate the horizontal and vertical projections.

Take the bitmap, draw it onto a 1 pixel high, full width rectangle.

Take the bitmap, draw it onto a 1 pixel wide, full height rectangle.

Both of those will have to process the entire image, but will do so using highly-parallel GPU-accelerated rendering.

Calculate bounds from these.

Ok, you could have errors in the result if the average of the entire column is exactly the background color.

-
Interesting, I never though of that (I know enough about image processing to be dangerous, no more). Thanks +1 –  Ed S. Jun 14 '12 at 20:38

Nice game for the evening! Thank you! Quickly wrote some C# Code to do this brute force:

``````public class Dimensions
{
public int left = 0;
public int right = 0;
public int top = 0;
public int bottom = 0;
}

public class ImageDetection
{
private const int xSize = 2000;
private const int ySize = 2000;

private const int xMin = 1800;
private const int yMin = 1800;
private const int defaultPixelColor = 0;

public void GetArray(out char[,] arr)
{
arr = new char[xSize, ySize];
Random rand = new Random();

for (int i=0; i<xSize; ++i)
{
for (int j=0; j<ySize; ++j)
{
var d = rand.NextDouble();

if (d < 0.5)
{
arr[i, j] = Convert.ToChar(defaultPixelColor);
}
else
{
int theInt = Convert.ToInt32(255 * d);
arr[i, j] = Convert.ToChar(theInt);
}
}
}

// cut top
for (int k = 0; k < (xSize - xMin); k++)
{
for (int l = 0; l < ySize; l++)
{
arr[k, l] = Convert.ToChar(defaultPixelColor);
}
}

// cut bottom
for (int k = xMin; k < xSize; k++)
{
for (int l = 0; l < ySize; l++)
{
arr[k, l] = Convert.ToChar(defaultPixelColor);
}
}

// cut left
for (int k = 0; k < xSize; k++)
{
for (int l = 0; l < (ySize - xMin); l++)
{
arr[k, l] = Convert.ToChar(defaultPixelColor);
}
}

// cut right
for (int k = 0; k < xSize; k++)
{
for (int l = xMin; l < ySize; l++)
{
arr[k, l] = Convert.ToChar(defaultPixelColor);
}
}

}

public void WriteArr(ref char[,] arr)
{
char[] line = new char[xSize];

// all lines
for (int i=0; i<ySize; ++i)
{
// build one line
for (int j = 0; j < xSize; ++j)
{
char curChar = arr[i, j];

if (curChar == '\0')
{
line[j] = '.';
}
else
{
line[j] = curChar;
}
}

string s = new string(line);
s += "\r\n";
//FileIO.WriteFileText
System.IO.File.AppendAllText("Matrix.txt", s);
}
}

public void DetectSize(ref char[,] arr, out Dimensions dim)
{
dim = new Dimensions();

dim.left = xSize;
dim.top = ySize;
dim.right = 0;
dim.bottom = 0;

for (int i = 0; i < xSize; ++i)
{
for (int j = 0; j < ySize; ++j)
{
if (!arr[i, j].Equals(Convert.ToChar(defaultPixelColor)))
{
if (i < dim.left)
{
dim.left = i;
}

if (j < dim.top)
{
dim.top = j;
}

if (i > dim.right)
{
dim.right = i;
}

if (j > dim.bottom)
{
dim.bottom = j;
}
}
}
}
}
}
``````
-
You'd be better of swapping your loops as you are currently looping column-wise, i.e., hopping around in memory instead of sequentially accessing elements and using your cache effectively. Also, jagged arrays are faster than multi-dimensional arrays, and certainly performance will be important in an image manipulation algorithm. –  Ed S. Jun 14 '12 at 19:56
thanks for the hints. will give it a try... –  Mare Infinitus Jun 14 '12 at 19:59
Surely there's a more effective way other then using four separate directional nested for loops? This is almost exactly how I had done my brute force technique prior (and the reason for making this post in the first place). Currently I'm utilising two loops with extra variables for checking backwards from height/width to 0. –  Aequitas Jun 14 '12 at 20:01
This is what I'm giving a go now thanks to your assistance Ed. I'm utilising one nested for loop with two extra variables to track the reverse iteration, if that makes any sense! –  Aequitas Jun 14 '12 at 20:08
@Aequitas: I posted an example, it may help somewhat (though it doesn't map 1:1 to your problem, but it's close). –  Ed S. Jun 14 '12 at 20:10